Аннотация:
Centroidal Voronoi Tessellations (CVT) are tessellations using Voronoi regions of their centroids.
CVTs are useful in several fields, such as data compression, optimal quadrature, optimal quantization,
clustering, and optimal mesh generation. Many patterns seen in nature are closely approximated by
a CVT. Examples include the Giant’s Causeway, the cells of the cornea, and the breeding pits of the male
tilapia.
Gersho’s conjecture, which states that there exists an asymptotically optimal CVT whose Voronoi
regions are all rescaled copies of the same polytope. Straightforward in 1D, and proven in 2D, Gersho’s
conjecture is still open for higher dimensions. One of the main difficulties is that Gersho’s conjecture is
a strongly nonlocal, infinite dimensional minimization problem (even in 3D). In this talk we will present
some recent results which reduce Gersho’s conjecture to a local, finite dimensional problem in 3D. Joint
work with Rustum Choksi.